Application of CPS Under the Background of Intelligent Construction


Digital twin
Cyber-physical system
Smart building




The advent of the fourth industrial revolution (Industry 4.0) has brought about new opportunities for the intelligent transformation and upgrading of the construction industry to achieve high-quality and sustainable development. On the basis of analyzing the background of the industry and the development status of the corresponding technologies used in intelligent construction, the application of cyber-physical system (CPS) is proposed. The CPS intelligent construction platform is created in response to the demands of the construction industry’s current growth to provide digital solutions. The drawbacks and challenges in the current construction development process have aided in the industry’s transformation and upgrading.


Zhu S, Zeng B, 2012, Research on CPS Technology Development. Microcomputer Information, 2012(9): 82–84.

Ma B, Xie Y, Qiu H, et al., 2013, 3D Centroid Positioning Algorithm for Building Environment Based on CPS. Journal of Shenyang Jianzhu University (Natural Science Edition), 29(2): 372–377.

Yang T, Liu Y, Liu Y, et al., 2021, Analysis and Trend Review of the Technology Status and Trend of Cyber-Physical System. Journal of Electronics and Information Technology, 43(12): 3393–3406.

Yang H, 2020, Real-Time Monitoring and Multi-Objective Optimization of Carbon Emissions in Prefabricated Building Construction Site Based on CPS. Chongqing University.

Ren J, Ma B, Wang C, et al., 2011, Research on Smart Home Network Architecture and Protocol Based on Cyber-physical System. Modern Building Electrical, 2011(10): 10–14.

Liu J, 2020, Research on Construction and Evaluation of Smart Construction Site System. Southeast University.

Qin Z, Meng B, 2020, Construction of CPS Architecture for Intelligent Building Monitoring. Building Engineering Technology and Design, 2020(30): 652.

You Z, Liu Z, 2022, Research on the Strategy of Intelligent Transformation and Upgrading of Construction Industry Driven by Industry 4.0. Building Economy, 43(3): 21–27.

Li J, 2016, Industry 4.0. Building Engineering Technology and Design, 2016(24): 1741.

Li X, Li S, He T, et al., 2019, Research and Application of High-quality and Efficient Intelligent Construction Technology under EPC Mode. Construction Technology, 48(24): 19–23.

Yin Z, Shi H, Wang Z, et al., 2021, Evaluation of Influencing Factors of Transformation and Upgrading of Construction Industry. Journal of Heilongjiang Institute of Technology, 35(6): 35–40.

Lu J, Li Y, Ye J, et al., 2022, Research on the Synergy Between Transformation and Upgrading of Construction Industry and High-Quality Development. Journal of Engineering Management, 36(2): 6–11.

Yang Y, 2020, Research on Intelligent Construction Management System of Prefabricated Building Based on BIM. Xi’an University of Science and Technology.

Meng X, Ci X, 2013, Big Data Management: Concepts, Technologies and Challenges. Journal of Computer Research and Development, 50(1): 146–169.

Lee HK, Qin Y, Lian X, 2021, Based on “Internet of Things +” Under the Application of Smart Construction Sites. Decorate the World, 2021(1): 206.

Liu R, Wang J, 2021, Discussion on the Research Status of Cloud Computing and Big Data Technology. Information Record Materials, 22(8): 16–17.

Zhang H, 2020, Status Quo and Development of Network Security Technology Based on Cloud Computing. Network Security Technology and Application, 2020(3): 68–69.

Wang C, Huang K, Li N, 2012, Artificial Intelligence-based CPS System Architecture Studies. TechNo Plaza, 2012(7): 61–64.

Kurata S, 2017, The Future of Architecture and CPS/IoT. Architectural Magazine, 132(TN.1702): 54.

Zhang T, 2021, Application Development and Future Prospect of Smart Construction Site. Installation, 2021(10): 9–10 + 19.